Chlorisondamine (CSD) has been used to assess the neurogenic contribution to blood pressure (BP) and vasomotor sympathetic tone in animal models. It is assumed that the reduction in BP following CSD administration is associated to decreases in cardiac output (CO) and peripheral resistance, reflecting cardiac and vasomotor sympathetic tone, respectively. Surprisingly, this has not been characterized experimentally in mice, despite the extensive use of this animal model in cardiovascular research. We hypothesize that a specific dose of CSD can selectively block the sympathetic vasomotor tone. To test this hypothesis, we evaluated the effects of different doses of CSD (intraperitoneal) on BP and heart rate (HR) using telemetry, and on CO using echocardiography. BP and HR in normotensive C57Bl/6J mice reduced to a similar extent by all CSD doses tested (1-6 mg/kg). CSD at 6 mg/kg also reduced CO without affecting left ventricular stroke volume or fractional shortening. On the other hand, lower doses of CSD (1 and 2 mg/kg) produced significantly larger BP and HR reductions in DOCA-salt-induced hypertensive mice, indicating a greater neurogenic BP response. In addition, all doses of CSD reduced CO in hypertensive mice. Our data suggest that the BP response to CSD in mice likely reflects reduced CO and vasomotor sympathetic tone. We conclude that CSD can be used to assess the neurogenic contribution to BP in mice but may not be appropriate for specifically estimating vasomotor sympathetic tone.
Keywords: autonomic function; blood pressure; cardiac output; chlorisondamine.
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